ARPES studies on FeTe_{1-x}Se_{x} iron chalcogenides epitaxial thin films

Davide Innocenti; Luca Moreschini; Young Jun Chang; A. Walter; Aaron Bostwick; Daniele Di Castro; Antonello Tebano; Pier Gianni Medaglia; Emilio Bellingeri; Ilaria Pallecchi; Carlo Ferdeghini; Giuseppe Balestrino; Eli Rotenberg

ARPES studies on FeTe$_{1-x}$Se$_{x}$ iron chalcogenides epitaxial thin films

ORAL

Abstract

The physics of iron-based chalcogenides raises fundamental questions on the interplay of magnetic order and electron pairing at the origin of the superconducting state. We have performed angle-resolved photemission spectroscopy (ARPES) studies on high-quality epitaxial thin films of FeTe$_{1-x}$Se$_{x}$, grown by \textit{in situ} pulsed laser deposition (PLD) on beamline 7.0.1 at the ALS. Specifically, we are able to show the evolution of the band structure as a function of x. We discuss our experimental results in comparison to the available theoretical band calculations.

March 24, 2011, 4:54 PM – March 24, 2011, 5:06 PM

Authors

Davide Innocenti
- Advanced Light Source and University of Rome ``Tor Vergata''
- ALS and University of Rome ``Tor Vergata''
Luca Moreschini
- ALS
- Advanced Light Source
Young Jun Chang
- ALS and Fritz-Haber-Institut
A. Walter
- ALS and Fritz-Haber-Institut
- FHI, Max-Planck-Gesellschaft and ALS, E. O. Lawrence Berkeley Laboratory
Aaron Bostwick
- ALS
Daniele Di Castro
- University of Rome ``Tor Vergata''
Antonello Tebano
- University of Rome ``Tor Vergata''
Pier Gianni Medaglia
- University of Rome ``Tor Vergata''
Emilio Bellingeri
- CNR-SPIN Genova
Ilaria Pallecchi
- CNR-SPIN Genova
Carlo Ferdeghini
- CNR-SPIN Genova
Giuseppe Balestrino
- University of Rome ``Tor Vergata''
Eli Rotenberg
- ALS
- LBL Berkeley
- Lawrence Berkeley National Laboratory